Your search keyword '"Hideaki Matsui"' showing total 4 results

1. Uniaxial Strain Effects on Superconducting Transition in Y0.98Ca0.02Ba2Cu4O8

Author

Hiroyuki Deguchi, Kaname Matsumoto, Masaki Mito, Hideaki Matsui, Hiroki Goto, Toshinori Ozaki, Yoshihiko Takano, Hiroyuki Takeya, and Hiroshi Hara

Subjects

Superconductivity, Magnetic measurements, Materials science, Strain (chemistry), Condensed matter physics, Doping, Hydrostatic pressure, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, law.invention, Stress (mechanics), law, 0103 physical sciences, Superconducting transition temperature, Hydrostatic equilibrium, 010306 general physics, 0210 nano-technology

Abstract

The effects of uniaxial strain and hydrostatic pressure on Y0.98Ca0.02Ba2Cu4O8 [called Y0.98(Ca0.02)-124] are investigated via AC magnetic measurements under stress corresponding to a pressure of (at most) 20 GPa. Hydrostatic contraction results in the largest enhancement of the superconducting transition temperature (Tc), whose maximum is 99 K, which is slightly lower than the maximum Tc achieved in YBa2Cu4O8 (called Y-124). The Meissner signal disappears at a hydrostatic pressure of approximately 15 GPa. This pressure region representing the Meissner signal is reduced by the out-of-plane contraction (along the c-axis), whereas it is increased by the in-plane contraction (along the c-plane). In the case of Y-124, both uniaxial contractions result in the disappearance of the Meissner signal at approximately 10 GPa prior to reaching the overdoped region. However, by doping Ca into the Y-site, we could investigate uniaxial strain effects characteristic of the so-called 124 structure without causing the stre...

Published

2016

2. Study of Magnetic Domain Dynamics Using Nonlinear Magnetic Responses: Magnetic Diagnostics of the Itinerant Magnet MnP

Author

Hiroyuki Deguchi, Katsuya Inoue, Yusuke Kousaka, K. Tsuruta, Masaki Mito, Y. Nakao, Shinichiro Yano, Hideaki Matsui, Jun-ichiro Kishine, and Jun Akimitsu

Subjects

Physics, Magnetization, Paramagnetism, Ferromagnetism, Condensed matter physics, Magnetic domain, Magnet, Demagnetizing field, General Physics and Astronomy, Magnetic susceptibility, Magnetic field

Abstract

The nonlinear and linear magnetic responses to an ac magnetic field H are useful for the study of the magnetic dynamics of both magnetic domains and their constituent spins. In particular, the third-harmonic magnetic response M3ω reflects the dynamics of magnetic domains. Furthermore, by considering the ac magnetic response as a function of H, we can evaluate the degree of magnetic nonlinearity, which is closely related to M3ω. In this study, a series of approaches was used to examine the itinerant magnet MnP, in which both ferromagnetic and helical phases are present. On the basis of this investigation, we systematize the diagnostic approach to evaluating nonlinearity in magnetic responses.

Published

2015

3. Uniaxial Strain Effects on Superconducting Transition in Y0.98Ca0.02Ba2Cu4O8.

Author

Masaki Mito, Hiroki Goto, Hideaki Matsui, Hiroyuki Deguchi, Kaname Matsumoto, Hiroshi Hara, Toshinori Ozaki, Hiroyuki Takeya, and Yoshihiko Takano

Abstract

The effects of uniaxial strain and hydrostatic pressure on Y0.98Ca0.02Ba2Cu4O8 [called Y0.98(Ca0.02)-124] are investigated via AC magnetic measurements under stress corresponding to a pressure of (at most) 20 GPa. Hydrostatic contraction results in the largest enhancement of the superconducting transition temperature (Tc), whose maximum is 99 K, which is slightly lower than the maximum Tc achieved in YBa2Cu4O8 (called Y-124). The Meissner signal disappears at a hydrostatic pressure of approximately 15 GPa. This pressure region representing the Meissner signal is reduced by the out-of-plane contraction (along the c-axis), whereas it is increased by the in-plane contraction (along the c-plane). In the case of Y-124, both uniaxial contractions result in the disappearance of the Meissner signal at approximately 10 GPa prior to reaching the overdoped region. However, by doping Ca into the Y-site, we could investigate uniaxial strain effects characteristic of the so-called 124 structure without causing the stress-induced structural transition through the underdoped, optimally doped, and overdoped regions. Except for the uniaxial contraction along the b-axis, the other contractions (i.e., hydrostatic contraction, and uniaxial contractions along the a- and the c-axes) exhibit consistent compression effects when Tc is normalized by the highest Tc and the stress is normalized by the stress realizing its highest Tc. [ABSTRACT FROM AUTHOR]

Published

2016

4. Study of Magnetic Domain Dynamics Using Nonlinear Magnetic Responses: Magnetic Diagnostics of the Itinerant Magnet MnP.

Author

Masaki Mito, Hideaki Matsui, Kazuki Tsuruta, Hiroyuki Deguchi, Jun-ichiro Kishine, Katsuya Inoue, Yusuke Kousaka, Shin-ichiro Yano, Yuya Nakao, and Jun Akimitsu

Abstract

The nonlinear and linear magnetic responses to an ac magnetic field H are useful for the study of the magnetic dynamics of both magnetic domains and their constituent spins. In particular, the third-harmonic magnetic response M3ω reflects the dynamics of magnetic domains. Furthermore, by considering the ac magnetic response as a function of H, we can evaluate the degree of magnetic nonlinearity, which is closely related to M3ω. In this study, a series of approaches was used to examine the itinerant magnet MnP, in which both ferromagnetic and helical phases are present. On the basis of this investigation, we systematize the diagnostic approach to evaluating nonlinearity in magnetic responses. [ABSTRACT FROM AUTHOR]

Published

2015